DE10203764A1 - Transport protocols for application platforms using network portals - Google Patents

Abstract

The present invention is directed to a hybrid network configuration, with a plurality of application platforms (AP) for sending and receiving voice and / or data according to a first predetermined protocol, a voice / data network (VDN) for routing the voice or data between the plurality of application platforms (AP) according to a second predetermined protocol, and at least one network portal (NP) in order to enable the plurality of application platforms (AP) to access the voice / data network (VDN) using the first and the second predetermined protocol ( Fig. 2).

Description

The present invention relates generally to the integration of Telephony in computers (CTI) and particularly affects communications cation protocols for use by a mixture of Voice and data devices over a hybrid network.

Currently, telephony and data networks are either with one Voice or data terminal completed. For example is a conventional terminal in a prime example of the  Telephony is a telephone, whereas the conventional terminal a sample of data networks a PC or laptop Computer is. Consequently, for every pairing of network and Terminal separate protocols have been developed. With the Ent Hybrid networks have become compatible with one another Standard protocols required, so that various language and Da devices can communicate efficiently with each other.

According to the invention, a communication protocol is provided represents a collection of different language and Data devices can communicate with each other without complication need to make protocol conversions as they are in the state technology exist. More specifically, a protocol mechanism provided for communication between an application platform and a network portal to set up, and on the other hand between the network portal and a voice / data network. The protocol mechanism included Tet a physical layer, on the one hand for the applications tion platform and the network portal is common, and others on the other hand for the network portal and the voice / data network. A data layer is provided between the physi layer and the assigned application platform, the assigned network portal or the assigned Voice / data network communicates. According to an important one Aspect of the invention encapsulates the data layer to be communicated nicative information with header information to informa tion to route.

It is understood that the above and the following standing features to be explained not only in each specified combination, but also in other combinations  or can be used alone, without the scope of to leave the present invention.

Embodiments of the invention are in the drawing are shown and are described in more detail in the following description explained. Show it:

Figure 1 is a schematic representation of a voice / data hybrid infrastructure according to the prior art.

Fig. 2 is a block diagram showing a protocol according to a first embodiment for communication between an application platform and a network portal;

Fig. 3 is a datagram showing the structure of an information package that is exchanged between an application platform and a network portal according to the embodiment of Fig. 2;

Fig. 4 is a block diagram / shows a protocol according to a second embodiment for communication between a network portal and a voice data network; and

Fig. 5 is a block diagram configured for PDAs Appa rate or assemblies ( "PDA-enabled sets") in tradi tional and shows in hybrid networks, specifically configured for communication according to the proto col the present invention.

Fig. 1 is a simplified diagram of the hardware infrastructure for a voice / data network hybrid. An application platform AP stands for any device that can send and receive voice or data or a mixture of both to and from other AP devices via a network portal within a voice / data network. In other words, an application platform AP is any device that is used as a terminal in the hybrid network. Examples of application platforms are telephones, cellular telephones or cell phones, wireless communication devices, PDAs (personal digital assistants), computers, terminals, laptops, etc. A network portal NP is a device that is used for application platforms as a common gateway to that Voice / data network acts. Examples of network portals include any application platforms, as noted above, configured to act as a network portal, wireless receivers / transmitters (base stations), etc. The voice / data network itself is a system of voice or data devices (or a mixture of both), which are connected to one another for the purpose of transmitting or routing voice / data information to other similar devices. Examples of voice / data networks are a LAN (local area network), WAN (wide area network), the Internet, an intranet, a private branch exchange (PBX), extension services through a telephone exchange (Centrex) and wireless systems.

It can be seen from Fig. 1 that two protocol blocks are neces sary. One block defines the communication between the application platform AP and the network portal NP and the second block defines the communication between the network portal NP and the voice / data network VDN.

In Fig. 2 is a representation at a high abstract level the protocol blocks between the application platform AP and the network portal NP is shown, in accordance with a first exporting approximately of the invention. The lowest layer or physical layer is provided jointly for both devices and represents the mechanism by means of which information is carried. The physical layer can be a wired interface (serial, parallel, USB, a conventional telephone service (POTS), etc.) or a wireless interface (infrared / IrDA, radio, cell phone, etc.).

The next higher layer, the so-called information encapsulation lung, performs two functions.

• 1. It takes information from the level above, packs this information with a header, the necessary source / Contains target information and passes it on to the physika layer.
• 2. It takes information from the next lower one Level, removes the header that contains the necessary source / destination contains information and transfers the information to the higher level.

This level of abstraction enables a more standardized, mutually compatible exchange of information between devices ten than is provided in the prior art.

The top layer is specific to the type of device in to which it exists. In the case of an application platform device controls the so-called application-specific cut ASI formatting information for use in Destination. The type of formatting depends on the requirements at the destination (for example, voice information provided by  an application platform device for the purpose of telephony (i.e. conventional telephone service ("POTS") or telephony via the Internet protocol IP) is used to use another telephony-compatible application platform device formatted in destination).

A network determines on the network portal side of the diagram Factory portal control interface NPCI, whether the information is internal can be processed or not, or whether the data is new too are repackaged, for use anywhere within the voice / data network using the NP to VDN Protocol. Providing this layer is a network Factory portal device able to process any information that is intended for itself, instead of always new to send and wait for another device to close it back there.

Fig. 3 shows in simplified form how datagrams in the physical layer contain information intended for voice / data networks. Voice or data information that is hidden within the information encapsulation can be sent over conventional telephony networks or data networks using the Internet protocol IP without having to worry about the content. Once the network protocol control interface NPCI has received the datagram, it decides, based on the content of the information encapsulation area, whether it should handle the information itself or repackage the data for use at any other destination.

Fig. 4 shows a view at a high abstract level of the protocol blocks between the network portal and the voice / data network. The bottom layer, the physical layer, is common to both devices, since this is the mechanism by which information is managed. As discussed above, the physical layer could be a wired or a wireless interface.

The next layer above it within the network protocol is the same as stated above, namely the information encapsulation. If the network portal the information If it does not handle or handle it itself, it must re-pack the data to send via the voice / data network.

The information routing layer of the voice / data network VDN takes the information package led by the network portal, encapsulates the data and already guides the packet through it defined network paths to the target network portal. outgoing from this point the process is reversed until a network portal NP or an internet device (internet appliance, IA) handles the information.

The voice / data network VDN, with which a network portal com another network portal, for example. Because the VDN voice / data network simply routes information or routes, in some cases local communication can there would be a need for an elimi voice / data network kidney. Since a network portal NP is also the protocol for a Application platform AP could contain, by way of Extension, such a device can be connected by single AP-to-NP-to-AP, which further simplifies connectivity.  

In summary, an application platform device also communicates another application platform device via the network port tal NP using two protocol blocks; treated every block a specific task or task in managing this information tion to the destination. When implementing these protocols it should be noted that a device can contain the protocols, by means of which it can act as an application platform, while at the same time it contains the protocols by means of which it can act as a network portal. By using the bottom pro anyone can do basic and basic training any device can be designed to each of these roles or to assume both of these roles.

Fig. 5 shows the implementation of the protocol according to the invention within a hardware infrastructure for devices set up for PDAs in a conventional telephony network as well as in an IP network.

Area A of FIG. 5 shows a traditional telephony environment in which the application platforms are shown as a PDA, a workstation WkSTn and a telephone. The phone also serves as a network portal to allow the PC and PDA to communicate with the phone itself, as well as with other devices that are connected elsewhere on the voice / data network. In the preferred embodiment, the PDA communicates with the network portal NP using infrared (e.g. IrDA, transmission standard of the Infrared Data Association), whereby the network portal can then handle the request or route it to the appropriate destination.

Area B of FIG. 5 shows how the application platform devices can be implemented within a voice / data network on the basis of the Internet protocol IP. Three different examples are given. In Example 1, a PDA communicates with other devices on the network, including computers, phones, and application servers, via an infrared link with a network portal NP (a phone based on IP). In Example 2, the computer is connected directly to the Internet Protocol based phone using an Ethernet cable, using the phone as its own network portal. In example 3, a wireless implementation enables an infrared PDA to communicate with another network portal (the wireless base station) via the network portal (the wireless telephone), while at the same time a wireless PDA can communicate directly with the wireless base station.

Although some embodiments of the invention are detailed have been written and presented, it is understood that ver various changes and modifications made to who that can. First, a Bluetooth implementation of a a wireless transceiver for devices equipped with PDAs for connection to the PDA, an IP telephone and other devices on the wireless desktop. The IP access of the PDA is used in a similar way to the procedure described above implemented, except that the call control command ("call control command") in IP packets within the combination embedded by PDA and Bluetooth transceiver, instead of Embedding in the telephone. The telephone operates then as a network portal for all Bluetooth devices on the Desktop or on the desk. Another modification  is that the telephone set up for PDAs can use the RS-232 communication protocol to Support applications such as hot sync. Although this The scenario focuses on a wireless Bluetooth solution for the communication between the device and the PDA, so puts but a wired solution means faster development riding. All changes and modifications can pre be taken without leaving the scope of the invention sen as defined by the claims below.

Claims (11)

1. Hybrid network configuration, characterized by :
a plurality of application platforms (AP) for sending and receiving voice and / or data according to a first predetermined protocol;
a voice / data network (VDN) for routing the voice or the data between the plurality of application platforms (AP) according to a second predetermined protocol; and
at least one network portal (NP) in order to provide access to the voice / data network (VDN) for the plurality of application platforms (AP) by encapsulating the voice or data in datagrams and source / destination headers for routing the datagrams between at least one network portal (NP) and the multitude of application platforms (AP) and the voice / data network (VDN) are attached, regardless of the content of the language or data encapsulated in the datagrams. 2. Network configuration according to claim 1, characterized records that the first protocol within each of the Numerous application platforms (AP) implemented is by (i) a physical layer for exchange the language or data between the large number of applications  tion platforms (AP) and the at least one network portal (NP) using the datagrams, (ii) a application-specific interface (ASI) to format language or data for use by the appli cation platforms (AP) and (iii) a first information encapsulation layer for encapsulating the language or data into the datagrams to append the source / target headers the datagrams and to send the datagrams over the physical layer, as well as to remove the source / Target header from the datagrams generated by the physi layer is received, and to send the speech or data to the application-specific interface (ASI). 3. Network configuration according to claim 2, characterized records that the first protocol within the at least a network portal (NP) is implemented by (i) the physical layer, (ü) a network portal tax interface for identifying voice or data, the network portal (NP) in connection with it in the It is able to process the language or data directly or alternatively to resend, and (iii) a second Information encapsulation layer for encapsulating the language che or data from the network portal control interface place to be received, in the datagrams, to attach the source / target header to the datagrams and for sending of the datagrams over the physical layer, as well as for Remove the source / target headers from the datagrams are received by the physical layer, and to Send the language or data to the network portal tax interface.   4. Network configuration according to one of claims 1 to 3, characterized in that the second protocol is within of the voice / data network (VDN) is implemented by (i) a physical layer for language exchange or data between the voice / data network (VDN) and using the at least one network portal (NP) the datagrams, and (ii) an information routing layer for formatting the language or data from the physi potash layer received for the purpose of sending over the voice / data network, as well as for attaching the Source / target header to the language or data and Sen that of the same over the physical layer. 5. Network configuration according to claim 4, characterized records that the second protocol within the little at least one network portal (NP) is implemented by (i) the physical layer and (ii) an information encapsulation layer for encapsulating the language or data into the datagrams to append the source / target headers the datagrams received by the network portal (NP) be, and for sending the datagrams over the physi layer and to remove the source / target headers from the datagrams from the physical layer are received, and to send the voice or data to the at least one network portal (NP). 6. Network configuration according to one of claims 1 to 5, characterized in that the variety of applications platforms (AP) at least one of the following devices includes: telephones, cellular phones, wireless communications  cation devices, PDAs, personal computers, terminals and lap top computer. 7. Network configuration according to one of claims 1 to 6, characterized in that the at least one network portal (NP) on at least one of the following devices features: telephones, cellular phones, wireless communications ons devices, PDAs, personal computers, terminals, wireless Receiver / transmitter base stations and laptop computers. 8. Network configuration according to one of claims 1 to 7, characterized in that the voice / data network (VDN) has at least one of the following networks: LAN, WAN, Internet, intranet, private branch exchange ("PBX"), Extension service by telephone exchange (Centrex), and a wireless system. 9. Network configuration according to one of claims 1 to 8, characterized in that the physical layer is a wired interface and / or a wireless cut position. 10. Network configuration according to claim 9, characterized records that the wired interface at least one ne of the following interfaces: serial Interface, parallel interface, USB interface, a / b interface (tip & ring interface). 11. Network configuration according to claim 9 or 10, characterized ge indicates that the wireless interface at least has one of the following interfaces: infrared / IrDA  Interface, radio interface and mobile radio interface le.